Patent application number | Description | Published |
20090229784 | OPTICALLY DETECTED LIQUID DEPTH INFORMATION IN A CLIMATE CONTROL UNIT - Systems and methods for determining liquid depth information in a condensate pan of a climate control unit are provided. The systems and methods radiate a light beam into a liquid contained in a condensate pan associated with a climate control unit. The light beam is detected at a point of the condensate pan that is below a surface of the liquid. Information related to the depth of the liquid is determined based at least in part on the detected light beam. The systems and methods disclosed herein can determine if liquid depth in a condensate pan is greater than a threshold depth and can control evacuation of the liquid from the condensate pan. | 09-17-2009 |
20120067136 | SYSTEM AND METHOD FOR AIR CONTAINMENT ZONE PRESSURE DIFFERENTIAL DETECTION - An air pressure differential sensing system includes a conduit defining an air passage through which air flows upon application of an air pressure differential across different regions of the air passage, a flap pivotally connected to the conduit, and a sensing device mounted proximate to the air passage and separate from the flap. The flap is configured to move about a pivotal axis in response to the air flowing through the air passage. The sensing device is configured to sense an angular position of the flap about the pivotal axis, the angular position of the flap being a function of the air pressure differential. | 03-22-2012 |
20120167668 | SYSTEMS AND METHODS FOR DETECTING LEAKS - A system for detecting leaks on a surface, such as a floor or a bottom of an equipment cabinet, includes a sound wave generator configured to generate sound waves, a tube having a first end coupled to the sound wave generator, a second end opposite the first end, and a plurality of openings formed in the tube, and a sound wave receiver coupled to the second end of the tube. The sound wave receiver is configured to detect sound waves generated by the sound wave generator that travel through the tube. The arrangement is such that sound waves are blocked from detection by the sound wave receiver when fluid enters the tube through the plurality of openings in the tube thereby indicating a fluid leak on the surface. | 07-05-2012 |
20120298219 | SYSTEM AND METHOD FOR AIR CONTAINMENT ZONE PRESSURE DIFFERENTIAL DETECTION - An air pressure differential sensing system includes a conduit defining an air passage through which air flows upon application of an air pressure differential across different regions of the air passage, a flap pivotally connected to the conduit, and a sensing device mounted proximate to the air passage and separate from the flap. The flap is configured to move about a pivotal axis in response to the air flowing through the air passage. The sensing device is configured to sense an angular position of the flap about the pivotal axis, the angular position of the flap being a function of the air pressure differential. | 11-29-2012 |
20150135783 | LOCKING ASSEMBLY FOR SECURING ELECTRONIC EQUIPMENT WITHIN AN EQUIPMENT RACK - A locking assembly is provided for securing an electronic module to a chassis of a rack enclosure within a mounting slot of the chassis. The locking assembly includes a lock configured to be secured to a vertical rail of the chassis. The lock further is configured to prevent the electronic module from being slidably installed into and removed from its respective mounting slot and to prevent a latch of the electronic module from being opened when the electronic module is secured in place within the chassis of the rack enclosure. The locking assembly further includes a key configured to enable the lock to be removed from the chassis thereby enabling the installation and removal of the electronic module from the chassis. | 05-21-2015 |
20150149671 | SYSTEMS AND METHODS FOR BIASING A BUS - A bi-directional differential bus interface that includes a differential transmitter having a non-inverting terminal and an inverting terminal, a differential receiver having a non-inverting terminal and an inverting terminal, and a biasing circuit that is electrically coupled to the non-inverting terminal of the differential transmitter and the inverting terminal of the differential transmitter. The biasing circuit is configured to generate a voltage between the non-inverting terminal of the differential transmitter and the inverting terminal of the differential transmitter that is approximately 200 mV or more in response to assertion of a control signal received on a control input of the biasing circuit. | 05-28-2015 |
20150338443 | TERMINAL BLOCK HAVING INTEGRATED CURRENT TRANSFORMERS - A terminal block for a power device includes a casing and a power cord. The terminal block is configured to be secured within the casing and to secure the power cord. The terminal block includes a body configured to fit within the casing of the power device. The body has at least one recess formed therein. The terminal block further includes at least one current transformer sized to fit within the at least one recess of the body. | 11-26-2015 |
20160079718 | HIGH VOLTAGE AND HIGH CURRENT POWER OUTLET - According to one aspect, embodiments herein provide a power distribution device including a power outlet comprising a receptacle including an internal conductor configured to be coupled to a power source and to an external conductor inserted into the receptacle, a switch configured to provide an indication of whether the external conductor has been sufficiently inserted within the receptacle, a relay configured to form a first connection between the external conductor and the power source, a transistor configured to be coupled in parallel with the relay, to form a second connection between the external conductor and the power source, and a controller configured to determine, based on the switch, that the external conductor is being removed, in response to the external conductor being removed, control the relay to sever the first connection, and in response to opening the relay, control the transistor to sever the second connection after a predetermined delay. | 03-17-2016 |
20160095247 | RACK MOUNTED EQUIPMENT POWER DISTRIBUTION SYSTEM ENHANCEMENTS - A rack power distribution unit (rPDU) for an electronics equipment rack includes a rPDU body having a front surface, a power inlet cord coupled to the rPDU body, a plurality of power outlets on a surface of the rPDU body in electrical communication with the power inlet cord, and a display including a display body having a right side and a left side and a display screen. The display body is pivotably mounted to the front surface of the rPDU body and configured to pivot about an axis. | 03-31-2016 |